Vol.1 No.3 2008

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−240 AbstractsSynthesiology Vo.1 No.3(2008)Development of regenerative medical technology working toward practical application- Construction of human cell processing system in view of safety for the purpose of clinical application -Hajime OhgushiResearch Institute for Cell Engineering, AISTNakoji 3-11-46, Amagasaki 661-0974, JapanE-mail: Recently, technology of regenerative medicine which utilizes cells after their proliferation and differentiation process has drawn attention. In order to utilize the technology for clinical application, safety issue of the process as well as usefulness of the cells should be confirmed. We analyzed the issues and succeeded in utilizing the cells after proliferation / differentiation process for the purpose of therapeutic applications.Development of highly-active hydrodesulfurization catalyst for sulfur-free diesel production- Full research from in-house laboratory catalyst to commercial catalyst -Yuji Yoshimura* and Makoto Toba***Research Center for New Fuels and Vehicle Technology, AISTHigashi 1-1-1, Tsukuba 305-8565, JapanE-mail: The need to reduce diesel exhaust emissions requires stringent specifications for diesel, in particular, sulfur content less than 10 ppm. We have recently developed a highly-active hydrodesulfurization (HDS) catalyst supported on Al2O3 using some chelating agents. Newly developed catalyst was quite unique in structure, i.e., consisting of highly dispersed and highly crystalline MoS2 nano-particles, etc. This in-house NiMo/Al2O3 catalyst was further developed as a newly commercialized HDS catalyst of LX-NC1. Development of massive synthesis method of organic nanotube toward practical use- Integration of molecular design, molecular synthesis and safety assessment for materials having market competitiveness -Masumi Asakawa*, Masaru Aoyagi, Naohiro Kameta, Masaki Kogiso, Mitsutoshi Masuda, Hiroyuki Minamikawa and Toshimi Shimizu*Nanotube Research Center, AISTHigashi 1-1-1, Tsukuba 305-8565, JapanE-mail: Since organic nanotubes have excellent dispersibility in water, and can encapsulate guest substances, such as proteins and nucleic acids, they are expected to be applied to various fields. We have planned and implemented a strategic scenario to meet various requirements, such as large quantity synthesis, applications, price competitiveness, safety, etc. to put organic nanotubes to practical use. We have designed and synthesized the most appropriate amphiphilic molecules for the formation of organic nanotubes and developed massive synthesis method of organic nanotubes by integrating design, synthetic, and self-assembly technologies.Development of flexible-printable device processing technology- For achievement of prosumer electronics -Toshihide Kamata*, Manabu Yoshida, Takehito Kodzasa, Sei Uemura, Satoshi Hoshino and Noriyuki Takada*Photonics Research Institute, AISTHigashi 1-1-1, Tsukuba 305-8565, JapanE-mail: We have worked on the development of the flexible-printable device processing technology as a processing technology of information terminal device that can make the best use of user's individuality. We have succeeded in the development of several low-temperature printing technologies for flexible active devices such as flexible displays and circuits. In this research, we have paid attention especially to the social requirements for the technology, and positions of respective technologies in the total set-up concept. We believe that it would contribute to the expansion of information technology in the world.(71)−Abstract of Research Papers

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